Process sensitivity analysis and techno-economic assessment of hydrogen sulphide to hydrogen via H2S methane reformation

In this work, hydrogen sulphide methane reformation is analysed for the hydrogen production from H2S. The process allows the H2S valorisation recovering its intrinsic hydrogen content. For the technology scale up to the industrial level, a process simulation is set up in Aspen Plus V11®. Its perform...

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Bibliographic Details
Published inJournal of cleaner production Vol. 330; p. 129889
Main Authors Spatolisano, Elvira, De Guido, Giorgia, Pellegrini, Laura A., Calemma, Vincenzo, de Angelis, Alberto R., Nali, Micaela
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.01.2022
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Summary:In this work, hydrogen sulphide methane reformation is analysed for the hydrogen production from H2S. The process allows the H2S valorisation recovering its intrinsic hydrogen content. For the technology scale up to the industrial level, a process simulation is set up in Aspen Plus V11®. Its performances are evaluated as a function of the CH4/H2S inlet molar ratio. Material and energy balances are presented for each considered case. A detailed process economic assessment is provided to identify the best operating conditions. Results in terms of hydrogen cost show the strong system's dependence on the CH4/H2S inlet molar ratio. If opportunely optimized, the present process can be competitive with respect to the traditional methane steam reforming, also considering that no direct CO2 emissions are produced. The advantages of the H2S methane reformation are discussed, to pave the way for future process optimization. [Display omitted] •H2SMR is studied for the simultaneous H2S valorisation and H2 production.•A process scheme for gaseous H2 production to pipeline distribution is proposed.•The process performances as a function of CH4/H2S inlet molar ratio are discussed.•The economic assessment allows determining H2 cost vs CH4/H2S inlet molar ratio.
ISSN:0959-6526
1879-1786
DOI:10.1016/j.jclepro.2021.129889